Flow variation system

The invention claimed is: 1. Method of remotely, selectively controlling the flow rate of fluid moving through a subsea pipeline during dewatering of the pipeline without the involvement of an external source at the surface, or a UV, at the pig receiving end of the pipeline, the pipeline having a launch end and an opposing pig receiving end, the method comprising: fluidly coupling a fluid flow conduit of an automated, self-powered, self-controlled subsea valve actuation system to the pipeline at the pig receiving end thereof, the fluid flow conduit having multiple branches all in fluid communication with the pipeline and the sea, wherein each branch may be selectively opened and closed by actuating at least one flow isolation valve associated therewith without the involvement of an external source at the surface, or a UV, at the pig receiving end of the pipeline to change the flow rate of fluid flowing through the pipeline during dewatering of the pipeline; allowing fluid to exit the pipeline to the sea through at least one fluid flow conduit branch during dewatering of the pipeline; at least one flow meter fluidly coupled to the fluid flow conduit measuring the fluid flow rate in the fluid flow conduit during dewatering of the pipeline; at least one of the flow meters emitting at least one signal relating to the fluid flow rate in the fluid flow conduit; and based at least partially upon one or more signals emitted by at least one of the flow meters and without the involvement of an external source at the surface, or a UV, at the pig receiving end of the pipeline, a control unit of the subsea valve actuation system selectively, autonomously actuating at least one flow isolation valve associated with at least one of the fluid flow conduit branches to open or close off fluid flow through the respective associated fluid flow conduit branch(es) to change the flow rate of fluid flowing through the pipeline during dewatering of the pipeline. 2. The method of claim 1 wherein it is desired to maintain a particular fluid flow rate in the pipeline during dewatering, further including: pre-programming the control unit to maintain the particular fluid flow rate in the pipeline during dewatering of the pipeline, the at least one flow meter emitting multiple signals relating to the fluid flow rate in the fluid flow conduit in real time during dewatering of the pipeline, and based at least partially upon at least some of the signals emitted by at least one of the flow meters and without the involvement of an external source at the surface, or a UV, at the pig receiving end of the pipeline, the control unit selectively, autonomously, repeatedly changing the flow rate of fluid in the fluid flow conduit to maintain the particular fluid flow rate in the pipeline during dewatering. 3. The method of claim 1 further including during dewatering of the pipeline, the subsea valve actuation system remotely, selectively, autonomously analyzing one or more samples of fluid exiting the subsea pipeline at the pig receiving end of the pipeline without the involvement of an external source at the surface, or a UV, at the pig receiving end of the pipeline. 4. The method of claim 3 further including the control unit receiving data about one or more samples of fluid analyzed during the dewatering and transmitting such data to at least one desired recipient on a real-time basis. 5. The method of claim 1 further including the control unit detecting the completion of dewatering of the pipeline without the involvement of an external source at the surface, or a UV, at the pig receiving end of the pipeline, and once the control unit has detected the completion of dewatering, the control unit, without the involvement of an external source at the surface, or a UV, at the pig receiving end of the pipeline, selectively, autonomously closing all the flow isolation valves associated with the fluid flow conduit branches to fluidly isolate the subsea pipeline filled with fluid provided during dewatering of the pipeline. 6. Method of remotely, selectively controlling the flow rate of fluid moving through a subsea pipeline during dewatering of the pipeline without the involvement of an external source at the surface, or a UV, at the pig receiving end of the pipeline, the pipeline having a launch end and an opposing pig receiving end, the method comprising: fluidly coupling a fluid flow conduit of an automated, self-powered, self-controlled subsea valve actuation system to the pipeline at the pig receiving end thereof; at least one variable control valve fluidly coupled to the fluid flow conduit allowing fluid to exit the pipeline to the sea during dewatering of the pipeline; at least one flow meter fluidly coupled to the fluid flow conduit measuring the fluid flow rate in the fluid flow conduit during dewatering of the pipeline; at least one of the flow meters emitting at least one signal relating to the fluid flow rate in the fluid flow conduit; and based at least partially upon one or more signals emitted by at least one of the flow meters and without the involvement of an external source at the surface, or a UV, at the pig receiving end of the pipeline, a control unit of the subsea valve actuation system selectively, autonomously actuating the at least one variable control valve to change the flow rate of fluid flowing through the pipeline during dewatering of the pipeline. 7. The method of claim 6 wherein it is desired to maintain a particular fluid flow rate in the pipeline during dewatering, further including pre-programming the control unit to maintain the particular fluid flow rate in the pipeline during dewatering of the pipeline, the at least one flow meter emitting multiple signals relating to the fluid flow rate in the fluid flow conduit in real time during dewatering of the pipeline, and based at least partially upon at least some of the signals emitted by at least one of the flow meters and without the involvement of an external source at the surface, or a UV, at the pig receiving end of the pipeline, the control unit selectively, autonomously, repeatedly changing the flow rate of fluid in the fluid flow conduit to maintain the particular fluid flow rate in the pipeline during dewatering. 8. The method of claim 6 further including dewatering of the pipeline, the subsea valve actuation system remotely, selectively, autonomously analyzing one or more samples of fluid exiting the subsea pipeline at the pig receiving end of the pipeline without the involvement of an external source at the surface, or a UV, at the pig receiving end of the pipeline. 9. The method of claim 8 further including the control unit receiving data about one or more of the samples of fluid analyzed during dewatering and transmitting such data to at least one desired recipient on a real-time basis. 10. The method of claim 6 further including the control unit detecting the completion of dewatering of the pipeline without the involvement of an external source at the surface, or a UV, at the pig receiving end of the pipeline, and once the control unit has detected the completion of dewatering, the control unit, without the involvement of an external source at the surface, or a UV, at the pig receiving end of the pipeline, selectively, autonomously closing the at least one variable control valve to fluidly isolate the subsea pipeline filled with fluid provided during dewatering of the pipeline.